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Melting chamber with a perforated layer of material

  • Energy Saving
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Abstract

The development of an energy-saving melting chamber with a perforated layer of material is discussed. The chamber is capable of ensuring deep integrated regeneration of heat waste and high environmental adequacy of the process.

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References

  1. R. Beerkens and H. Muysendberg, “Comparative study on energy-saving technologies for glass furnaces,” Glastech. Ber., 65(8), 216–224 (199

  2. J. L. Barton, “Innovation in glass melting,” Glass Technol., 34(5), 170–177 (199

  3. I. I. Pereletov, A. V. Pushkin, and Yu. K. Ivanov, “Melting chamber with a perforated layer,” in: Inform. Works of the VNIIÉSM Institute, Issue 6 [in Russian], Moscow (1989), pp. 7–

  4. I. I. Pereletov, A. V. Pushkin, and Yu. K. Ivanov, “Energy-saving melting furnace,” in: Inform. Works of the VNIIÉSM Institute, Issue 3 [in Russian], Moscow (1990), pp. 12–

  5. I. I. Pereletov, A. V. Pushkin, and Yu. K. Ivanov, Results of Studying a Perforated Layer, Express Review of the VNIIÉSM Institute, Issue 1 [in Russian], Moscow (1991).

  6. I. I. Pereletov, A. V. Pushkin, and Yu. K. Ivanov, Melting Chamber with a Very High Energy-and Material-Saving Effect, Analytical Review of the VNIIÉSM Institute, Issue 2 [in Russian], Moscow (1991).

  7. B. A. Sokolov, “Development of energy-saving thermal scheme for furnaces for silicate melting,” Trudy In-ta MÉI, No. 29, 13–19 (1984

  8. I. I. Pereletov and A. V. Pushkin, “A search method for new thermal engineering principles of high-temperature thermotechnological process,” Trudy In-ta MÉI, No. 29, 105–111 (1984

  9. I. I. Pereletov, “Energy-saving in high-temperature technology based on deep integrated regeneration of heat waste,” Trudy In-ta MÉI, No. 624, 70–75 (1984

  10. I. I. Pereletov and A. V. Pushkin, “A study of parameters of a melting chamber with a perforated layer and a radiating impact flame using a mathematical model,” Trudy In-ta MÉI, No. 139, 27–31 (1987

  11. H. Kobayashi, K. T. Wu, F. Dumoulin, H. Kiewall, “TCF technology for oxi-fuel glassmelting,” Am. Ceram. Soc. Bull., 84(2), 14–19 (200

  12. G. Tincher, “Economic climate for glassmelting innovation,” Am. Ceram. Soc. Bull., 83(4), 33–36 (200

  13. M. Greenman, “Oxy-gas-fired submerged combustion melter,” Am. Ceram. Soc. Bull., 83(4), 14 (200

  14. S. K. Popov, “Mathematical model of a moving hollow cylinder in a melting chamber with a perforated layer,” Vestinik MÉI, No. 3, 56–63 (2002

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Authors and Affiliations

  1. Moscow Power Institute (Technical University), Moscow, Russia

    Yu. K. Ivanov & S. K. Popov

Authors
  1. Yu. K. Ivanov
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  2. S. K. Popov
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__________

Translated from Steklo i Keramika, No. 12, pp. 37–40, December, 2005.

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Ivanov, Y.K., Popov, S.K. Melting chamber with a perforated layer of material. Glass Ceram 62, 397–400 (2005). https://doi.org/10.1007/s10717-006-0019-7

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  • DOI: https://doi.org/10.1007/s10717-006-0019-7

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